JP5837161B2 - Equipment used for turbochargers - Google Patents

Description

  The present invention relates to the field of turbochargers. The present invention is an apparatus used for a turbocharger, the apparatus including an air inflow housing having a flange, an inner compressor housing having a flange, and an outer compressor housing having a flange. The air inlet housing, the inner compressor housing, and the outer compressor housing are mechanically coupled to each other via a flange connection, the flange connection being connected to the flange of the air inlet housing, The flange of the compressor housing and the flange of the outer compressor housing are connected by a plurality of screw fastening portions, and the flange of the inner compressor housing is disposed between the flange of the air inflow housing and the flange of the outer compressor housing. Being a turbocha It relates to an apparatus to be used in the manager.

  A turbocharger, also called an exhaust gas turbocharger, typically has a compressor and an exhaust gas turbine that are mechanically coupled together via a common shaft. The exhaust gas from the piston engine is supplied to the exhaust gas turbine. Since the exhaust gas is not sufficiently expanded, a part of the exhaust gas energy still existing is converted into the rotational energy of the exhaust gas turbine. The rotational energy of the exhaust gas turbine is transmitted to a compressor through a shaft, and the compressor compresses new air supplied to the piston engine. In this way, the piston engine can be supercharged with significantly more fresh air. This increases the power density of the piston engine.

  In the compressor, fresh air reaches the compressor housing through an air inflow housing, which can be, for example, a filter silencer or an inlet pipe piece. The compressor housing surrounds the compressor wheel. The rotation of the compressor wheel converts the rotational energy of the compressor wheel into the compression energy of new air, and thus the new air is compressed. The compressor housing is often divided into an inner compressor housing for flow guidance and an outer compressor housing for closure.

  FIG. 1 schematically shows a known prior art device used in a turbocharger together with a compressor wheel. The compressor wheel 5 is surrounded by an inner compressor housing 2 and an outer compressor housing 3. Fresh air is sucked through the filter silencer 1 and supplied to the compressor wheel 5 through a flow path formed by the inner compressor housing 2. After the compression of the new air by the compressor wheel 5, the compressed new air is led out through the outer compressor housing 3 and supplied to a piston engine (not shown). The outer compressor housing 3 is coupled to a turbocharger bearing housing (not shown) and is spatially positioned. The outer compressor housing 3, the inner compressor housing 2, and the air inflow housing 1 are coupled to each other via a flange connection portion. In this flange connection portion, the flange 11 of the air inflow housing 1, the flange 21 of the inner compressor housing 2, and the flange 31 of the outer compressor housing 3 are pressed against each other by the screw fastening portion 4. In this case, the flange 21 of the inner compressor housing 2 is disposed between the flange 11 of the air inflow housing 1 and the flange 31 of the outer compressor housing 3.

  The maximum diameter of the air inflow housing and the maximum diameter of the outer compressor housing are often set to be larger than the diameter of each flange so that the screw connection at the flange connection is not accessible and the member is After assembly, it becomes difficult to introduce screws into the corresponding holes.

  Typically, this problem is solved by a screw fastener having studs that are screwed into the outer compressor housing. In this case, the flange of the inner compressor housing and the flange of the air inflow housing are fixed to the stud bolt by the nut. Thereby, the approach to the screw fastening portion can be restricted by a limited space situation in the axial direction. This solution is still unsatisfactory with respect to the accessibility, and has the disadvantage that it takes a lot of time to tighten and tighten the screw fastening part when assembling or removing the air inflow housing. Have.

  An object of the present invention is to provide an apparatus for use in a turbocharger that has improved accessibility and allows for quicker assembly or removal of the air inflow housing.

  In order to solve this problem, in the apparatus according to the present invention, the screw fastening portion connects only the inner compressor housing and the outer compressor housing among the air inflow housing, the inner compressor housing, and the outer compressor housing. A short coupling portion that is a first type of short screw fastening portion, and the screw fastening portion couples the air inflow housing, the inner compressor housing, and the outer compressor housing to each other. It has a long coupling portion which is a type 2 long screw fastening portion.

  In a preferred embodiment of the device according to the invention, the flange of the air inflow housing has a notch in the region of at least one short joint, the notch being a short joint in which the notch is arranged. Having a diameter larger than the diameter in the region of the part, so that the air inflow housing is fitted over the short coupling part through the notch.

  In a preferred embodiment of the device according to the present invention, at least 45% of the screw fastening part is a short joint part.

  In a preferred aspect of the apparatus according to the present invention, the short coupling portion includes a nut and a sleeve, and the sleeve includes a pressing surface of the flange of the inner compressor housing and a pressing surface of the flange of the outer compressor housing. The spanner corresponding to the nut is set to such a length as to be accessible to the nut in the radial direction of the short coupling portion.

  In a preferred embodiment of the device according to the invention, the flange of the air inflow housing has ribs, the ribs acting to mechanically reinforce the flange of the air inflow housing, the flange of the air inflow housing In the region having the notch.

  In a preferred embodiment of the apparatus according to the present invention, the flange of the air inflow housing has another notch similar to the notch in the region of the long coupling portion, and the long coupling portion has a washer. The washer has a long connecting portion in the axial direction of the long connecting portion in the axial direction of the long connecting portion, and the shape connection with the air inflow housing, the inner compressor housing, and the outer compressor housing. And an air inflow housing, an inner compressor housing, and an outer compressor housing are coupled to each other.

  In a preferred embodiment of the device according to the invention, one of the screw fastenings has a stud bolt screwed into the flange of the air inlet housing or into the flange of the outer compressor housing.

  In a preferred aspect of the device according to the present invention, the plurality of screw fastening portions are arranged on one screw circle.

  Furthermore, in order to solve the above-described problems, the turbocharger according to the present invention is provided with the device according to the present invention.

  The subject of the invention is that the device according to the invention has a flange connection with two types of screw fastenings. The first type of screw fastening portion is a short joint. This short joint connects the inner compressor housing to the outer compressor housing. In addition, in the short dimension coupling | bond part, the coupling | bond part with an air inflow housing is not formed. The second type of screw fastening part is a long coupling part. The long coupling portion couples the air inflow housing, the inner compressor housing, and the outer compressor housing to each other. As a result, the air inflow housing can be quickly attached and detached, and the accessibility can be improved.

  In a first preferred embodiment, the flange of the air inflow housing has at least one notch or enlarged diameter portion. The notch is formed so that a short coupling portion that is assembled and has a coupling action disposed therein does not engage with the air inflow housing in the axial direction. Therefore, for example, when the diameter of the notch is larger than the diameter of the screw of the short coupling portion, the short coupling portion does not form a shape connection portion with the air inflow housing in the axial direction. This allows a simple production of the device according to the invention.

  Another advantageous aspect relates to a device in which at least 45% of the screw fastenings are short joints. As a result, when the members collide with each other inside the turbocharger and the inner compressor housing is displaced based on the collision, the air inflow housing is securely fixed by the flange connection portion and can be prevented from being sheared. Become.

  Another advantageous aspect relates to a device having a short coupling with a sleeve. The length of the sleeve is set so that, for example, a spanner can be brought close to the nut in the radial direction of the short joint portion. Preferably, the nut of the short coupling portion is positioned at the same position as the nut of the long coupling portion in the axial direction by the sleeve. This allows a simpler assembly of the device according to the invention.

  Another advantageous aspect relates to a device having a plurality of ribs between the air inflow housing and its flange in the region of the short joint. This makes it possible to improve the ease of access to the screw fastening portion. This is because the short joint can already be tightened before positioning the air inflow housing, and the ribs do not get in the way during this tightening.

  Another advantageous aspect relates to a device in which all screw fastenings are arranged in the notches and the long coupling part has a washer. The washer forms a shape connection between the elongated coupling and the air inflow housing. Preferably, all the notches are formed identically. This allows simple manufacture of the device and reduces the risk of assembly errors.

1 schematically shows a device according to the prior art used in a turbocharger together with a compressor wheel. 1 is a schematic axial cross-sectional view of a device according to the present invention with an air inflow housing assembled. 1 is a schematic perspective view of an apparatus according to the present invention with an air inlet housing removed.

  In the following, embodiments for carrying out the invention will be described in detail with reference to the drawings. The reference numerals used in the drawings are summarized in the description of the reference numerals. In principle, identical parts are provided with the same reference numerals.

  FIG. 2 shows a schematic view of the device according to the invention used in a turbocharger with an air inlet housing assembled. This device has a silencer 1 with a filter, an inner compressor housing 2, an outer compressor housing 3, and a flange connection portion provided with a screw fastening portion. The outer compressor housing 3 has a threaded hole provided in its flange 31. A stud 41 is screwed into the threaded hole. The flange 21 of the inner compressor housing 2 and the flange 11 of the filter silencer 1 have holes. Both holes are arranged coaxially with the stud 41 and are used for screw fastening. Only every other screw fastening portion constitutes a long coupling portion 45 that couples the silencer with filter 1, the inner compressor housing 2, and the outer compressor housing 3 to each other. The remaining screw fastening part forms a short joint 46 which forms a joint between the inner gas inlet, the inner compressor housing 2 and the outer compressor housing 3. In addition, in this short coupling | bond part 46, the silencer 1 with a filter is not included together in the coupling | bond part. The hole provided in the flange 11 of the filter silencer 1 has a cylindrical notch or an enlarged diameter portion. The diameter of this notch is set larger than the maximum diameter of the nut 43 used for the screw fastening portion. In the short coupling portion 46, one sleeve 42 is disposed between the nut 43 and the flange 21 of the inner compressor housing 2. The sleeve 42 has a smaller diameter than the hole provided in the flange 11 of the silencer 1 with a filter. Thus, the nut 43 of the short joint 46 applies a force for pressing the flange 21 of the inner compressor housing 2 and the flange 31 of the outer compressor housing 3 together. In this case, the nut 43 is not directly disposed on the flange 21 of the gas inlet inside the compressor housing 2 inside. The pressing force applied to the sleeve 42 from the nut 43 of the short coupling portion 46 is transmitted to the flange 21 of the inner compressor housing 2 through the sleeve 42. The length of the sleeve 42 is such that the nut 43 of the short coupling portion 46 is disposed outside the hole provided in the flange 11 of the filter silencer 1 in the tightened state, and therefore, the radial direction of the screw fastening portion. Thus, the nut 43 is selected so that it can approach the nut 43, that is, the nut 43 can be tightened or loosened. That is, the sleeve 42 is set to have a length substantially equal to the thickness of the flange 11 of the silencer 1 with a filter, or in consideration of the space provided in the axial direction of the screw fastening portion, than the thickness of the flange 11. Is also set longer. In the long coupling portion 45, one washer 44 is disposed between the nut 43 and the flange 21 of the inner compressor housing 2. The washer 44 has a maximum diameter larger than the hole of the flange 11 of the filter silencer 1, so that the surface of the washer 44 on the side opposite to the nut 43 is the surface of the filter silencer 1. The filter-mounted silencer 1 is connected to the inner compressor housing 2 and the outer compressor housing 3.

  FIG. 3 shows a schematic perspective view of the device according to the invention with the air inlet housing removed. A plurality of studs 41 are arranged on the flange 31 of the outer compressor housing 3 while drawing one screw circle. The inner compressor housing 2 has a hole in its flange 21 and is attached to the outer compressor housing 3 by this hole and a stud 41. Every other stud 41 has a sleeve 42 and a nut 43 so that the short joint 46 forms a joint between the outer compressor housing 3 and the inner compressor housing 2. doing. Thereafter, a silencer with a filter (not shown in FIG. 3) is put on the long coupling portion 45 to which nothing has been mounted yet and the short coupling portion 46 already tightened. Next, a washer 44 is installed on the stud 41 of the long joint 45. This washer 44 is placed on the shoulder of the flange of the filter silencer and is fastened by a nut 43.

  Alternatively, another shape-connecting element can be used in place of the washer, and the hole for the long joint is less than the maximum diameter of the nut in the area of the nut. The surface of the nut that faces the flange of the filter silencer rests on the shoulder of the flange of the filter silencer, so that the shape of the flange of the filter silencer It is also possible to form a connection. It is possible to remove the sleeve and tighten the short joint nut directly against the flange of the inner compressor housing. The ratio between the short joint and the long joint does not have to be 1: 1 and can be varied according to the mechanical load requirements. Spatial distribution of studs to the outer compressor housing flange may be variably performed.

DESCRIPTION OF SYMBOLS 1 Silencer with filter 11 Flange of filter silencer 2 Inner compressor housing 21 Flange of inner compressor housing 3 Outer compressor housing 31 Flange of outer compressor housing 4 Screw fastening portion 41 Stud bolt 42 Sleeve 43 Nut 44 Washer 45 Long joint 46 Short joint 5 Compressor wheel
6 Ribs

Claims (8)

A device used in a turbocharger, wherein the device is
An air inflow housing (1) with a flange (11);
An inner compressor housing (2) with a flange (21);
An outer compressor housing (3) with a flange (31),
An air inlet housing (1), an inner compressor housing (2) and an outer compressor housing (3) are mechanically coupled to each other via a flange connection;
The flange connection portion includes a plurality of screws for connecting the flange (11) of the air inflow housing (1), the flange (21) of the inner compressor housing (2), and the flange (31) of the outer compressor housing (3). Are joined by a fastening part (4),
In the turbocharger, the flange (21) of the inner compressor housing (2) is arranged between the flange (11) of the air inlet housing (1) and the flange (31) of the outer compressor housing (3). In the equipment used,
The screw fastening portion (4) includes only the inner compressor housing (2) and the outer compressor housing (3) among the air inflow housing (1), the inner compressor housing (2), and the outer compressor housing (3). Having a short length coupling portion (46) which is a first type short screw fastening portion (46) for coupling the two to each other;
A screw fastening portion (4) is a second type of long screw fastening portion (45) that couples the air inflow housing (1), the inner compressor housing (2), and the outer compressor housing (3) to each other. ) Having a long coupling part (45) ,
The flange (11) of the air inflow housing (1) has a notch in the region of at least one short joint (46), the notch being a short joint in which the notch is arranged. Having a diameter larger than the diameter in the region of (46), so that the air inflow housing (1) covers the short joint (46) in a coupled state through the notch . An apparatus used for a turbocharger, characterized by Every other screw connection part (4), a short-sized coupling portion (46), according to claim 1 Symbol mounting device. The short coupling part (46) has a nut (43) and a sleeve (42), and the sleeve (42) is connected to the pressing surface of the flange (21) of the inner compressor housing (2) and the outer side. A wrench corresponding to the nut (43) is arranged between the pressing surface of the flange (31) of the compressor housing (3) and the nut (43) in the radial direction of the short joint (46). 3. A device according to claim 1 or 2 , wherein the device is set to a length that allows access to the nut (43). The flange (11) of the air inflow housing (1) has ribs, which act to mechanically reinforce the flange (11) of the air inflow housing (1), (1) of the flange (11), wherein is arranged in a region having a notch, apparatus according to any one of claims 1 to 3. The flange (11) of the air inflow housing (1) has another notch similar to the notch in the region of the long coupling portion (45), and the long coupling portion (45) is a washer. (44), and the washer (44) has a long coupling portion (45) in the axial direction of the long coupling portion (45) in spite of the other notch. (1) having a shape connection with the inner compressor housing (2) and the outer compressor housing (3), the air inflow housing (1), the inner compressor housing (2), and the outer compressor housing (3) and a is formed to mate with one another, apparatus according to any one of claims 1 to 4. A stud bolt (41) in which one of the plurality of screw fastenings (4) is screwed into the flange (11) of the air inlet housing (1) or into the flange (31) of the outer compressor housing (3) the has a device as claimed in any one of claims 1 to 5. A plurality of screw fastening portion (4), are arranged on one screw yen device according to any one of claims 1 to 6. A turbocharger, characterized in that the device according to any one of claims 1 to 7 is provided.